摘要
首先比较了传统的水平轴和新型的垂直轴风力机应用的优劣势,基于有旋圆柱绕流中涉及的库塔——儒可夫斯基定理,将马格纳斯效应力推广应用于垂直轴风力机柱状叶片的设计之中,提出了一种轮轨式垂直轴柱状叶片风力机的设计思想,并建立了柱状叶片风力机的数学模型,分析了这种新型风力机的工作原理.初探如何合理运用现代工业形势下的新技术,改善风力机存在的问题,突破传统思考方式以及技术实现方式,进一步提高这种风力机的效率和性能.
In this thesis, we raise an idea of the design of a wheel-track vertical axis wind turbine after presenting acontrast of the applied strengths and weaknesses between traditional HAWT and newfangled VAWbased on Kutta-Joukowski’ s theorem is applied to the design of the turbine blades. To realize this assumption, a concrete turbine mathematical model is set up and a detailed analysis of the perfturbine is followed. Meanwhile, several points of reflection about the research and development of this newfangled wheel-track wind turbine which can be driven by Magnus force is derived in the research process. We make a primary investigation on how to improve the efficiency and performance and avoid existing problems of this wind turbine by reasonably and effectively using the newtechnique under modern industry situation.
作者
刘宸宇
李超
Liu Chenyu, Li Chao(School of Energy and Mechanical Engineering,Nanjing Normal University,Nanjing 210042, Chin)
出处
《南京师范大学学报(工程技术版)》
CAS
2018年第1期41-46,共6页
Journal of Nanjing Normal University(Engineering and Technology Edition)
关键词
马格纳斯效应
轮轨式垂直轴风力机
风力发电
旋转圆柱绕流
Magnus effect, wheel-track vertical axis wind turbine, wind power generation, flow past a rotating cylinder
